Example #1
0
  private static List<ThreadState> buildThreadStates(VirtualMachineProxyImpl vmProxy) {
    final List<ThreadReference> threads = vmProxy.getVirtualMachine().allThreads();
    final List<ThreadState> result = new ArrayList<ThreadState>();
    final Map<String, ThreadState> nameToThreadMap = new HashMap<String, ThreadState>();
    final Map<String, String> waitingMap = new HashMap<String, String>(); // key 'waits_for' value
    for (ThreadReference threadReference : threads) {
      final StringBuilder buffer = new StringBuilder();
      boolean hasEmptyStack = true;
      final String threadName = threadName(threadReference);
      final int threadStatus = threadReference.status();
      final ThreadState threadState =
          new ThreadState(threadName, threadStatusToState(threadStatus));
      nameToThreadMap.put(threadName, threadState);
      result.add(threadState);
      threadState.setJavaThreadState(threadStatusToJavaThreadState(threadStatus));

      buffer.append(threadName);
      ReferenceType referenceType = threadReference.referenceType();
      if (referenceType != null) {
        //noinspection HardCodedStringLiteral
        Field daemon = referenceType.fieldByName("daemon");
        if (daemon != null) {
          Value value = threadReference.getValue(daemon);
          if (value instanceof BooleanValue && ((BooleanValue) value).booleanValue()) {
            buffer
                .append(" ")
                .append(DebuggerBundle.message("threads.export.attribute.label.daemon"));
          }
        }

        //noinspection HardCodedStringLiteral
        Field priority = referenceType.fieldByName("priority");
        if (priority != null) {
          Value value = threadReference.getValue(priority);
          if (value instanceof IntegerValue) {
            buffer
                .append(", ")
                .append(
                    DebuggerBundle.message(
                        "threads.export.attribute.label.priority",
                        ((IntegerValue) value).intValue()));
          }
        }
      }

      ThreadGroupReference groupReference = threadReference.threadGroup();
      if (groupReference != null) {
        buffer
            .append(", ")
            .append(
                DebuggerBundle.message(
                    "threads.export.attribute.label.group", groupReference.name()));
      }
      buffer
          .append(", ")
          .append(
              DebuggerBundle.message(
                  "threads.export.attribute.label.status", threadState.getState()));

      buffer.append("\n  java.lang.Thread.State: ").append(threadState.getJavaThreadState());

      try {
        if (vmProxy.canGetOwnedMonitorInfo() && vmProxy.canGetMonitorInfo()) {
          List<ObjectReference> list = threadReference.ownedMonitors();
          for (ObjectReference reference : list) {
            final List<ThreadReference> waiting = reference.waitingThreads();
            for (ThreadReference thread : waiting) {
              final String waitingThreadName = threadName(thread);
              waitingMap.put(waitingThreadName, threadName);
              buffer
                  .append("\n\t ")
                  .append(
                      DebuggerBundle.message(
                          "threads.export.attribute.label.blocks.thread", waitingThreadName));
            }
          }
        }

        ObjectReference waitedMonitor =
            vmProxy.canGetCurrentContendedMonitor()
                ? threadReference.currentContendedMonitor()
                : null;
        if (waitedMonitor != null) {
          if (vmProxy.canGetMonitorInfo()) {
            ThreadReference waitedMonitorOwner = waitedMonitor.owningThread();
            if (waitedMonitorOwner != null) {
              final String monitorOwningThreadName = threadName(waitedMonitorOwner);
              waitingMap.put(threadName, monitorOwningThreadName);
              buffer
                  .append("\n\t ")
                  .append(
                      DebuggerBundle.message(
                          "threads.export.attribute.label.waiting.for.thread",
                          monitorOwningThreadName));
            }
          }
        }

        final List<StackFrame> frames = threadReference.frames();
        hasEmptyStack = frames.size() == 0;
        for (StackFrame stackFrame : frames) {
          final Location location = stackFrame.location();
          buffer.append("\n\t  ").append(renderLocation(location));
        }
      } catch (IncompatibleThreadStateException e) {
        buffer
            .append("\n\t ")
            .append(DebuggerBundle.message("threads.export.attribute.error.incompatible.state"));
      }
      threadState.setStackTrace(buffer.toString(), hasEmptyStack);
      ThreadDumpParser.inferThreadStateDetail(threadState);
    }

    for (String waiting : waitingMap.keySet()) {
      final ThreadState waitingThread = nameToThreadMap.get(waiting);
      final ThreadState awaitedThread = nameToThreadMap.get(waitingMap.get(waiting));
      awaitedThread.addWaitingThread(waitingThread);
    }

    // detect simple deadlocks
    for (ThreadState thread : result) {
      for (ThreadState awaitingThread : thread.getAwaitingThreads()) {
        if (awaitingThread.isAwaitedBy(thread)) {
          thread.addDeadlockedThread(awaitingThread);
          awaitingThread.addDeadlockedThread(thread);
        }
      }
    }

    ThreadDumpParser.sortThreads(result);
    return result;
  }
  private static List<ThreadState> buildThreadStates(VirtualMachineProxyImpl vmProxy) {
    final List<ThreadReference> threads = vmProxy.getVirtualMachine().allThreads();
    final List<ThreadState> result = new ArrayList<ThreadState>();
    final Map<String, ThreadState> nameToThreadMap = new HashMap<String, ThreadState>();
    final Map<String, String> waitingMap = new HashMap<String, String>(); // key 'waits_for' value
    for (ThreadReference threadReference : threads) {
      final StringBuilder buffer = new StringBuilder();
      boolean hasEmptyStack = true;
      final int threadStatus = threadReference.status();
      if (threadStatus == ThreadReference.THREAD_STATUS_ZOMBIE) {
        continue;
      }
      final String threadName = threadName(threadReference);
      final ThreadState threadState =
          new ThreadState(threadName, threadStatusToState(threadStatus));
      nameToThreadMap.put(threadName, threadState);
      result.add(threadState);
      threadState.setJavaThreadState(threadStatusToJavaThreadState(threadStatus));

      buffer.append("\"").append(threadName).append("\"");
      ReferenceType referenceType = threadReference.referenceType();
      if (referenceType != null) {
        //noinspection HardCodedStringLiteral
        Field daemon = referenceType.fieldByName("daemon");
        if (daemon != null) {
          Value value = threadReference.getValue(daemon);
          if (value instanceof BooleanValue && ((BooleanValue) value).booleanValue()) {
            buffer
                .append(" ")
                .append(DebuggerBundle.message("threads.export.attribute.label.daemon"));
            threadState.setDaemon(true);
          }
        }

        //noinspection HardCodedStringLiteral
        Field priority = referenceType.fieldByName("priority");
        if (priority != null) {
          Value value = threadReference.getValue(priority);
          if (value instanceof IntegerValue) {
            buffer
                .append(" ")
                .append(
                    DebuggerBundle.message(
                        "threads.export.attribute.label.priority",
                        ((IntegerValue) value).intValue()));
          }
        }

        Field tid = referenceType.fieldByName("tid");
        if (tid != null) {
          Value value = threadReference.getValue(tid);
          if (value instanceof LongValue) {
            buffer
                .append(" ")
                .append(
                    DebuggerBundle.message(
                        "threads.export.attribute.label.tid",
                        Long.toHexString(((LongValue) value).longValue())));
            buffer.append(" nid=NA");
          }
        }
      }
      // ThreadGroupReference groupReference = threadReference.threadGroup();
      // if (groupReference != null) {
      //  buffer.append(", ").append(DebuggerBundle.message("threads.export.attribute.label.group",
      // groupReference.name()));
      // }
      final String state = threadState.getState();
      if (state != null) {
        buffer.append(" ").append(state);
      }

      buffer.append("\n  java.lang.Thread.State: ").append(threadState.getJavaThreadState());

      try {
        if (vmProxy.canGetOwnedMonitorInfo() && vmProxy.canGetMonitorInfo()) {
          List<ObjectReference> list = threadReference.ownedMonitors();
          for (ObjectReference reference : list) {
            if (!vmProxy.canGetMonitorFrameInfo()) { // java 5 and earlier
              buffer.append("\n\t ").append(renderLockedObject(reference));
            }
            final List<ThreadReference> waiting = reference.waitingThreads();
            for (ThreadReference thread : waiting) {
              final String waitingThreadName = threadName(thread);
              waitingMap.put(waitingThreadName, threadName);
              buffer
                  .append("\n\t ")
                  .append(
                      DebuggerBundle.message(
                          "threads.export.attribute.label.blocks.thread", waitingThreadName));
            }
          }
        }

        ObjectReference waitedMonitor =
            vmProxy.canGetCurrentContendedMonitor()
                ? threadReference.currentContendedMonitor()
                : null;
        if (waitedMonitor != null) {
          if (vmProxy.canGetMonitorInfo()) {
            ThreadReference waitedMonitorOwner = waitedMonitor.owningThread();
            if (waitedMonitorOwner != null) {
              final String monitorOwningThreadName = threadName(waitedMonitorOwner);
              waitingMap.put(threadName, monitorOwningThreadName);
              buffer
                  .append("\n\t ")
                  .append(
                      DebuggerBundle.message(
                          "threads.export.attribute.label.waiting.for.thread",
                          monitorOwningThreadName,
                          renderObject(waitedMonitor)));
            }
          }
        }

        final List<StackFrame> frames = threadReference.frames();
        hasEmptyStack = frames.size() == 0;

        final TIntObjectHashMap<List<ObjectReference>> lockedAt =
            new TIntObjectHashMap<List<ObjectReference>>();
        if (vmProxy.canGetMonitorFrameInfo()) {
          for (MonitorInfo info : threadReference.ownedMonitorsAndFrames()) {
            final int stackDepth = info.stackDepth();
            List<ObjectReference> monitors;
            if ((monitors = lockedAt.get(stackDepth)) == null) {
              lockedAt.put(stackDepth, monitors = new SmartList<ObjectReference>());
            }
            monitors.add(info.monitor());
          }
        }

        for (int i = 0, framesSize = frames.size(); i < framesSize; i++) {
          final StackFrame stackFrame = frames.get(i);
          try {
            final Location location = stackFrame.location();
            buffer.append("\n\t  ").append(renderLocation(location));

            final List<ObjectReference> monitors = lockedAt.get(i);
            if (monitors != null) {
              for (ObjectReference monitor : monitors) {
                buffer.append("\n\t  - ").append(renderLockedObject(monitor));
              }
            }
          } catch (InvalidStackFrameException e) {
            buffer.append("\n\t  Invalid stack frame: ").append(e.getMessage());
          }
        }
      } catch (IncompatibleThreadStateException e) {
        buffer
            .append("\n\t ")
            .append(DebuggerBundle.message("threads.export.attribute.error.incompatible.state"));
      }
      threadState.setStackTrace(buffer.toString(), hasEmptyStack);
      ThreadDumpParser.inferThreadStateDetail(threadState);
    }

    for (String waiting : waitingMap.keySet()) {
      final ThreadState waitingThread = nameToThreadMap.get(waiting);
      final ThreadState awaitedThread = nameToThreadMap.get(waitingMap.get(waiting));
      awaitedThread.addWaitingThread(waitingThread);
    }

    // detect simple deadlocks
    for (ThreadState thread : result) {
      for (ThreadState awaitingThread : thread.getAwaitingThreads()) {
        if (awaitingThread.isAwaitedBy(thread)) {
          thread.addDeadlockedThread(awaitingThread);
          awaitingThread.addDeadlockedThread(thread);
        }
      }
    }

    ThreadDumpParser.sortThreads(result);
    return result;
  }